Momentum and energy dependence of the anomalous high-energy dispersion in the electronic structure of high temperature superconductors

Using high-resolution angle-resolved photoemission spectroscopy we have studied the momentum and photon energy dependence of the anomalous high-energy dispersion, termed waterfalls, between the Fermi level and 1 eV binding energy in several high-T_{c} superconductors. We observe strong changes of th...

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Bibliographic Details
Published in:Physical review letters 2007-12, Vol.99 (23), p.237002-237002, Article 237002
Main Authors: Inosov, D S, Fink, J, Kordyuk, A A, Borisenko, S V, Zabolotnyy, V B, Schuster, R, Knupfer, M, Büchner, B, Follath, R, Dürr, H A, Eberhardt, W, Hinkov, V, Keimer, B, Berger, H
Format: Article
Language:English
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Summary:Using high-resolution angle-resolved photoemission spectroscopy we have studied the momentum and photon energy dependence of the anomalous high-energy dispersion, termed waterfalls, between the Fermi level and 1 eV binding energy in several high-T_{c} superconductors. We observe strong changes of the dispersion between different Brillouin zones and a strong dependence on the photon energy around 75 eV, which we associate with the resonant photoemission at the Cu3p-->3d_{x;{2}-y;{2}} edge. We conclude that the high-energy "waterfall" dispersion results from a strong suppression of the photoemission intensity at the center of the Brillouin zone due to matrix element effects and is, therefore, not an intrinsic feature of the spectral function. This indicates that the new high-energy scale in the electronic structure of cuprates derived from the waterfall-like dispersion may be incorrect.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.99.237002